RU2028555C1 - Heater - Google Patents

Abstract

FIELD: heaters. SUBSTANCE: heater has vertical channels 1 which connect horizontal collectors 4 and 5; there are entrance and exit couplings 6 and 7 at the ends of the collectors. Heater has also vertical pipes 2 and lesser diameter axial pipes 3. Relation of internal diameter of pipe 2 to internal diameter of pipe 3 is equal to 1.1-3.2. Width of annular valve between the pipes equals to 3-20 mm. Heat-exchange intensifiers are disposed in space of pipe 3. They are made in form of an insertion. The latter is made in form of volumetric mesh or rod disposed in align to the pipe. Bundles of wires of plates are attached to the rod. EFFECT: improved efficiency of heating. 5 cl, 7 dwg

Description

 The invention relates to heating devices of convective-radiation type and is intended for use in central heating systems.

 A heating device is known, including horizontal collectors connected by vertical channels for a coolant, equipped with coaxial and last vertical air channels open outward in the upper and lower parts of the device.

 A disadvantage of the known solution is the lack of data on the structural parameters that contribute to the achievement of optimal hydraulic resistance in the annular channel, as well as insufficient heat exchange.

 The technical task of the invention is to increase the intensity of heat transfer, increase the specific power of heat transfer per unit length and reduce hydraulic resistance.

 The problem is achieved in that the device containing vertical channels connecting the horizontal collectors, and having through vertical air channels to the entire height of the device, washed over the entire height and from all sides with a coolant, is made with a pipe diameter ratio of 1.1-3, 2 with an annular channel width between pipes of 3-20 mm. In addition, it is planned to increase the heating area by placing heat transfer intensifiers in the cavity of the air channel, and install a rotary damper in the upper part of the device.

 Figure 1 shows a General view of a heating device of two vertical elements; figure 2 is a section aa of figure 1; figure 3 is a section bB of figure 2; figure 4 - section bb In figure 1; figure 5 is a section GG of figure 1; figure 6 is an embodiment of the intensifier in the form of a grid; Fig.7 is an embodiment of the intensifier in the form of a rod placed along the axis of the pipe and bundles of wire fixed to it.

 The heating device consists of vertical annular channels 1, formed by external and internal coaxial pipes 2 and 3, connecting the horizontal upper and lower collectors 4 and 5, equipped at the ends with inlet and outlet fittings 6 and 7. Inner pipes 3, piercing the horizontal collectors 4 and 5 , form additional air channels 8, which can be equipped with heat transfer intensifiers 9, for example, in the form of longitudinal or spiral plates or in the form of a volumetric mesh adjacent to the inner walls of the air space nal, as well as in the form of a rod located along the axis of the pipe, on which bundles of wires or plates are fixed. A rotary damper 10 is installed in the upper part of the heating device.

 The device operates as follows.

 The hot heat carrier passing successively through the inlet fitting 6, the upper horizontal collector 4, the vertical channels 1, the lower collector 5 and the outlet nozzle 7, is cooled by transferring heat through the walls: the upper and lower collectors 4 and 5 and pipes 2 in the form of natural convection of air and thermal radiation in addition, the coolant is cooled by transferring heat through the inner walls of the pipes 3, forming vertical air channels 8, and the heat transfer in them is only convective and reinforced by draft resulting from the difference in air pressure at the entrance and exit of the channel. The intensity of heat transfer in the vertical air channels 8 depends on the type of heat transfer intensifier 9 and its turbulizing ability. A rotary damper installed at the top of the device allows you to adjust the heat transfer of the device.

 The implementation of pipes with an inner diameter of the outer pipe equal to 1.1-3.2 of the diameter of the air channel, which is optimal from the point of view of heat engineering efficiency, dimensions and layout.

 The width of the annular channel determines the magnitude of the hydraulic resistance of the device, for technical and technological reasons should be in the range of 3-20 mm. Moreover, with a decrease in the specified channel width, the alignment of the pipes is difficult in the manufacture of the device and the hydraulic resistance increases, and with an increase, the flow rate of the coolant and the dimensions increase with a decrease in the surface heating area.

 Thus, the proposed heating device allows to increase the intensity of heat transfer, increase the specific heat transfer per unit length, reduce hydraulic resistance, and also improve the quality of heating by regulating heat transfer.

Claims (6)

 HEATING DEVICE "CONRAD-U".  1. A heating device containing horizontal manifolds communicated by vertical pipes and coaxial pipes of a smaller diameter, connected to the outside air to form an annular channel for hot coolant, characterized in that heat exchange intensifiers in the form of an insert are placed in the cavity of the pipe of smaller diameter this inner diameter of the outer pipe is 1.1 to 3.2 of the inner diameters of the coaxial pipes.  2. The device according to p. 1, characterized in that the width of the annular channel is 320 mm  3. The device according to paragraphs. 1 and 2, characterized in that a rotary damper is installed in its upper part.  4. The device according to paragraphs. 1 to 3, characterized in that the insert is made in the form of a volumetric mesh in contact with the inner wall of the pipe.  5. The device according to paragraphs. 1-3, characterized in that the inserts are made in the form of a rod placed along the axis, on which bundles of wires or plates are fixed.

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